A portable image capture and camera device is provided including a device body, and an upper panel displaceably engaged to the body, and having an image capture module disposed thereon. A lower panel is also displaceably engaged to the body, for receiving and supporting a subject when the lower panel is deployed to an open position. The upper panel is translatable to deploy from a stowed position to a first deployed position to image a subject disposed on the lower panel (card reader mode), and to a second deployed position to image objects remote from the device (camera mode).
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1. A portable image capture and camera device comprising:
a body;
an upper panel rotatably engaged to the body and having an image capture module disposed on a first surface thereof, wherein the image capture module is operative with both a first set of predetermined focal depth and field of view values and a second set of predetermined focal depth and field of view values;
a lower panel rotatably engaged to the body, for receiving and supporting a first object when the lower panel is deployed to an open position, wherein the lower panel includes first and second edges that are raised relative to the lower panel to create a recessed groove that guides and supports the insertion and positioning of the first object;
wherein the upper panel is rotatable to deploy from a stowed position to a first deployed position to image the first object disposed on the lower panel, and to a second deployed position to image a second object disposed remote from the device;
a position sensor disposed on the body proximate the upper panel, wherein the position sensor is operative to continuously generate an output signal representative of the orientation of the upper panel relative to the body, wherein when the upper panel is pivoted approximately 180 degrees from the body, the image capture module utilizes the first set of predetermined focal depth and field of view values to capture an object as a digital camera, wherein when the upper panel is pivoted approximately 90 degrees from the body, the image capture module utilizes the second set of predetermined focal depth and field of view values to capture a business card like object as a card reader; and
a microprocessor, wherein the microprocessor is operative to regulate processing of information received from the image capture module in response to the output signal and relative to the orientation of the upper panel.
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Not Applicable
Not Applicable
An image capture device, such as a scanner, analyzes and converts an image or an object into a digital image. For example, a basic image scanner analyzes, processes and converts a photograph, printed text or handwriting into a digital image. Desktop image scanners, which have existed for many years, are the most common type of an image capture device.
More recently, smaller, portable versions of desktop scanners have been marketed and sold primarily for the purpose of scanning business and other name cards. Examples of such prior art business and name card scanners include the business and name card reader sold by CardScan, Inc. of Cambridge, Mass. Another example of a currently existing model of a business and name card reader is the BizCard Reader 900c, sold by Card Reader, Inc., doing business as Electronic Document Technology of Sunnyvale, Calif.
Some scanners, including desktop image scanners, utilize a glass flatbed design and scanner head to capture a scanned image. The scanner head is comprised of an imaging element, several mirrors and filters and a lens. The scanner head works in association with the other components of a scanner such as a glass plate, a lamp, a stepper motor, a stabilizer bar, a belt, and a power supply. A desktop image scanner usually requires a scan subject or object to be placed face down on the glass plate. The belt, which is attached to a stepper motor, moves the scanner head across the document causing the imaging element and light source to also move across the glass plate reading the entire area. The assembly is attached to a stabilizer bar to ensure there is no deviation in the complete scan of the scan subject. The subject is visible to the imaging element because of the light reflected by the subject.
Some scanners, such as the aforementioned prior art devices and other similar portable image scanning devices, are equipped with an automatic document feed feature. The user places the scan subject into an insertion slot from which the subject is automatically fed into the scanner. The imaging element remains still during automatic document feed scanning, while the subject is moved through the scanner by rollers at a constant rate. The subject can be collected from a separate exit slot after the object is scanned.
Many prior art devices, such as the aforementioned business and name card readers, typically utilize certain on-board image and text capture software technology or other software applications, to read and scan all of the information on a business or name card and convert the same into a digital image. One such application is optical character recognition (OCR) which can be utilized to scan words and other images from a scan subject and convert the same into a computer-based text. OCR generally utilizes an averaging process to determine what the shape of a character is and match it to the correct letter or number. Thus, when a business or name card is scanned both typed and handwritten information on the card is automatically read into a database. A scanned image of the card can also be saved to a computer-readable file for further alteration and image enhancement.
The imaging element is one of the key components of image capture devices, including desktop or portable image scanners, and the quality of the resulting image is dependent on the imaging element of the device. A charge-coupled device chip, CCD, is the most common imaging technology. CCD technology incorporates a collection of light-sensitive diodes, called photosites, which convert light photons into an electrical charge. Each photosite is sensitive to light so that when bright light hits a single photosite, an electrical charge accumulates at that site. The scanned image reaches the CCD through the array of mirrors, filters and lenses. The exact configuration of these components depends on the model of the scanner. Generally, the image of the document is reflected by an angled mirror to another mirror, with each subsequent mirror having a slight curve to focus the reflected image onto the surface of another mirror. The last mirror reflects the image onto a lens which focuses the image onto the imaging element. The number of mirrors of a CCD device in association with the moving scanner head, belt and motor makes a CCD bulky which can limit the overall size of the device.
A second type of imaging element incorporated into contemporary image capture devices is contact image sensor technology, or CIS. CIS technology is often incorporated into flatbed scanners as an alternative to CCD technology. CIS technology utilizes an array of light emitting diodes under the glass plate. CIS replaces the CCD array of mirrors, filters and lenses with rows of red, green and blue light emitting diodes, or LEDs. The imaging element typically consists of three hundred to six hundred sensors spanning the width of the scan area and is placed very close to the glass plate upon which the document rests. When the image is scanned, the LEDs combine to provide white light to illuminate the image, which is then captured by the row of sensors. Scanning devices that incorporate CIS technology are typically smaller in size, but these devices do not provide the equivalent resolution or overall image quality as do scanning devices that incorporate CCD technology.
Regardless of the type of technology utilized in the image capture device, the glass flatbed design of currently existing portable scanners still requires an insertion slot construction in the device. Thus, even if the more compact CIS technology is incorporated into the image capture device, the overall thickness of the device is typically still substantial.
Other contemporary scanning devices, such as the WorldCard duet sold by PennPower Technology Ltd. of Taiwan, incorporate a webcam to scan and read images of business cards. Such devices use image and text recognition software to recognize the information printed on the card. However, the WorldCard duet device lacks portability and versatility because it is must be set up as a webcam to capture an image of a business card. As such, the user can only use the WorldCard duet in connection with a personal computer or other similar device.
Preferably a portable image capture device is compact and preferably pocket-sized. The image capture device may be similar in size to a standard-sized credit card or business card but should have a slightly thicker width. The image capture device should preferably be able to capture data, such as text or other images, typically printed on business or name cards and other similar objects, for further storage and use. The device may also include appropriate software to translate the captured text and images into readable files for further organization and classification. Preferably the device may also function as a digital camera to capture other image subjects in addition to business or name cards. The device may also have the capability to communicate with an external device by any of the available methods of data transmission that facilitate the transfer of information between devices.
A portable image capture and camera device is provided including a device body, and an upper panel displaceably engaged to the body, having an image capture module disposed thereon. A lower panel is also displaceably engaged to the body, for receiving and supporting a subject when the lower panel is deployed to an open position. The upper panel is translatable to deploy from a stowed position to a first deployed position to image a subject disposed on the lower panel (card reader mode), and to a second deployed position to image objects remote from the device (camera mode).
The device includes an image capture module located on one surface of the upper panel. The panel can be rotated ninety degrees to use the image capture module as a business or name card reader. The panel can further be rotated, e.g., an additional ninety degrees, to use the image capture module as a digital camera. The device captures an image with an imaging element and creates a digital image of the information. The disclosed device has a built-in text and character recognition software, in addition to a memory component, so the captured information can be translated into readable computer files, if necessary, and stored for later transfer. Any of the images captured using the disclosed device can be communicated to an external device using most available methods of data transmission.
A portable image capture device, as disclosed, may therefore be used as a business or name card reader and/or as a digital camera. The device eliminates the glass plate that is common in most portable card readers and, therefore, may be compact and slim. The device utilizes digital camera technology to capture images of data and other images typically printed on business or name cards. Thus, the device may be utilized as a digital camera when it is not being used as a card reader.
In another embodiment the upper panel may be slidably engaged to the body, and translatable to a position to image objects remote from the device, and further rotatable to image subjects disposed on the lower panel.
In the presently preferred embodiment the first deployed position is a position rotated 90 degrees relative to the stowed position, and the second deployed position is a position rotated approximately 180 degrees from the stowed position.
The image capture module may be formed on a first surface of the upper panel, such that the image capture module is in substantial abutting relation with the body, when the upper panel is disposed in the stowed position.
A position sensor may be provided to generate an output signal representative of the orientation or position of the upper panel, relative to the body.
Processing circuitry is provided for receiving information from the image capture module and generating an output display thereof. The processing circuitry may include a display device and a microprocessor, the microprocessor being in electrical communication with display device, the image capture module and the position sensor. The microprocessor may be operative to modify processing of information received from the image capture module, in response to signals from the position sensor. As such, the microprocessor may regulate processing, e.g., regulate running of optical character recognition software in relation to the sensed position of the upper panel, indicating that the device is in a card reader mode. The processing circuitry may also regulate image processing, in response to information from the position sensor, indicating whether the device is operating in a card reader mode, or a camera mode. Field of view and focal length may therefore be regulated in response to the sensed position of the upper panel (sensed modes), or the sensed position of such other element as may support the image capture module.
These and other features and advantages of the various embodiments disclosed herein will be better understood with respect to the following description and drawings, in which like numbers refer to like parts throughout, and in which:
Referring now to the drawings, and more particularly to
Device 100 includes a body 110 having a front surface 111, which is relatively flat, and a back surface, shown at
In one alternate embodiment, upper panel 115 is translatable along the plane of front surface 111 by pushing directly upward, allowing the device to function as a digital camera, as described in further detail with respect to
Lower panel 125 is supported on front surface 111 by a hinge (not shown) located at or near bottom edge 130 such that lower panel 125 can be pivoted approximately ninety degrees away from body 110 and returned to its original position. Lower panel 125 is, therefore, rotatable away from body 110, to an orientation substantially perpendicular to the plane of front surface 111.
Release button 135 may be located on lower panel 125 and is operative to deploy lower panel 125, allowing it to pivot and horizontally extend from body 110. Alternatively, if release button 130 is omitted from lower panel 125, lower panel 125 may be pivoted and extended manually. Device 100 further includes an execution button 160 that is depressed to execute the process of recording and saving an image of a subject to the either the built-in memory located inside body 110 or other removable memory storage module, as further described herein with respect to
Image capture module 155 may have a pre-determined focal depth when upper panel 115 is in a pivoted or deployed position of approximately ninety degrees relative to body 110 so that the features of image subject 140 remain inside the depth of field 162. Image capture module 155 may further have a pre-determined field of view 160 when upper panel 115 is pivoted approximately ninety degrees relative to body 110 so that a typically sized business or name card remains inside the field of view 160 of image capture module 155.
Upper panel 115 may be further rotated on hinge 170 to a position approximately one hundred eighty degrees relative to body 110, so that device 100 can be used as a digital camera. As shown in
Referring to
In one alternate embodiment, shown at
As will be apparent to those of ordinary skill in the art, device 100, may be implemented in a variety of different constructions. The particular mechanism for deploying upper panel 115, the sensing mechanism that may be used for monitoring the motion of upper panel 115, and processing functions that may be implemented in response to the position of upper panel 115, and therefore the intended mode of operation, may each be selected and modified in accordance with alternate techniques and preferences without departing from the broader aspects of the present invention.
The data and information of captured images can be uploaded or transferred from device 100 in connection with an input/output device 270 or other connection. In one embodiment, the images and other data collected from device 100 are uploaded by transferring the data to a personal computer by means of a physical connection such as an RS232 or a USB port. The physical connection may also be accomplished by using a cradle, similar to a personal digital assistant (not shown) which may be electronically coupled to a personal computer and into which device 100 may be inserted. The information transfer can be initiated through a control on the cradle or automatically when device is inserted into cradle. Data may also be transferred to a computer by device 100 by means of a short-range wireless transmission, such as Bluetooth.
The above description is given by way of example, and not limitation. Given the above disclosure, one skilled in the art could devise variations that are within the scope and spirit of the invention disclosed herein Further, the various features of the embodiments disclosed herein can be used alone, or in varying combinations with each other and are not intended to be limited to the specific combination described herein. Thus, the scope of the claims is not to be limited by the illustrated embodiments.
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